CN218200352U - Bottle cap gasket assembling device - Google Patents

Abstract

The utility model discloses a bottle cap gasket assembling device, which relates to the non-standard automation field and comprises an installation cabinet body, a first conveyor belt, a bottle cap adsorption turnover mechanism, a second conveyor belt and a gasket adsorption turnover transfer mechanism; a first conveyor belt is arranged in the length direction of the mounting cabinet body, bottle caps are placed on the first conveyor belt, and cap openings of the bottle caps are placed on the conveyor belt downwards; conveying the bottle caps to a designated position through a first conveying belt, then overturning the bottle caps at the designated position through a bottle cap adsorption and overturning mechanism, grabbing the bottle caps at the designated position, overturning the bottle caps to one end where a second conveying belt is located, conveying the bottle caps to the designated position of the second conveying belt, and placing the bottle caps on the second conveying belt with the cap openings facing upwards; meanwhile, the gasket is released into the bottle cap at the position corresponding to the lower second conveyor belt through the gasket adsorption turnover mechanism, and the assembly is completed, so that the automatic assembly of the bottle cap and the gasket is realized, and the time and the labor are saved.

Description

Bottle cap gasket assembling device

Technical Field

The utility model belongs to the non-standard automation field, concretely relates to bottle lid gasket assembly device.

Background

Bottles are common containers, and the conventional bottle structure requires a gasket to be installed in a bottle cap in order to maintain good sealing performance.

During assembly of an existing bottle structure, most of bottle caps without gaskets are conveyed in a pipeline mode through a conveying belt, then the gaskets in the bottles are manually assembled through operators, in the transportation process of the existing bottle caps before the gaskets are assembled, cap openings face upwards and are placed on the conveying belt, the outer surfaces of the bottle caps are in contact with the conveying belt, friction occurs between the outer surfaces of the bottle caps and the conveying belt in the transmission process, and due to the fact that no protective measures are taken, the outer surfaces of the bottle caps can be scratched due to friction in the conveying process.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model aims to provide a bottle cap gasket assembling device is applicable to circular gasket.

The utility model discloses the technical scheme who adopts does:

a bottle cap gasket assembling device comprises an installation cabinet body, a first conveyor belt, a bottle cap adsorption turnover mechanism, a second conveyor belt and a gasket adsorption turnover mechanism; a first conveyor belt is arranged in the length direction of the mounting cabinet body, and bottle caps are placed on the first conveyor belt; a bottle cap adsorption turnover mechanism and a gasket adsorption turnover mechanism are respectively arranged at two ends of the length direction of the top surface of the mounting cabinet body, the bottle cap adsorption turnover mechanism and the gasket adsorption turnover mechanism are respectively positioned at two ends of the first conveyor belt, and a gasket is prevented from being arranged at the top of the gasket adsorption turnover mechanism; the second conveyor belt is installed on the installation cabinet body along the width direction and is positioned below the gasket adsorption turnover mechanism; the bottle cap adsorption turnover mechanism is used for transferring bottle caps on the first conveyor belt onto the second conveyor belt, and the gasket adsorption turnover mechanism is used for transferring gaskets on the top onto the second conveyor belt and assembling the gaskets with corresponding bottle caps.

Optionally, the bottle cap adsorption turnover mechanism comprises a turnover mechanism, and the turnover mechanism comprises a first telescopic cylinder, a rack, a first turnover shaft, a connecting rod and a sucker;

the first telescopic cylinder is installed on the installation cabinet body, and a piston rod of the telescopic cylinder is connected with the rack and drives the rack to move along the length direction of the installation cabinet body;

the first turnover shaft is arranged along the width direction of the installation cabinet body, one end of the first turnover shaft is provided with a gear, and the gear is meshed with the rack;

a plurality of connecting rods are arranged on the first turnover shaft at equal intervals, and a first sucker is arranged at one end, far away from the first turnover shaft, of each connecting rod.

Optionally, the bottle cap adsorption turnover mechanism further comprises a translation mechanism, and the translation mechanism comprises a rodless cylinder, a mounting plate and a push plate;

the both ends of the width direction of the installation cabinet body all are provided with rodless cylinders, and the both ends of mounting panel are connected with the slider of two rodless cylinders respectively, and the equidistant a plurality of push pedals that are provided with on the mounting panel, a plurality of connecting rods are arranged in the interval of push pedal respectively and the interval between the adjacent push pedal is less than the diameter of bottle lid.

Optionally, the second conveyor belt comprises a driving motor, a conveyor belt, a push rod and a color sensor, and a power output shaft of the driving motor is in transmission connection with the conveyor belt;

the push rod is arranged at the output end of the transmission belt;

the color sensor is arranged right above the output end of the transmission belt.

Optionally, the push rod is an electric push rod or a telescopic cylinder.

Optionally, the gasket adsorption turnover mechanism comprises an installation top plate, a lifting plate, a support shaft, a limiting column and a guide column;

supporting shafts are arranged on two sides and two ends of the second conveying belt, and mounting top plates are mounted at the tops of the supporting shafts;

a second telescopic cylinder is installed at the top of the installation top plate, and a piston rod of the second telescopic cylinder penetrates through the installation top plate to be connected with the lifting plate;

four vertex angles of the lifting plate are slidably arranged on the supporting shaft;

two ends of the guide post are respectively fixedly connected with the mounting cabinet body and the mounting top plate and penetrate through the lifting plate;

the limiting column is installed on the installation cabinet body, a limiting baffle is arranged at the top end of the limiting column, and the lifting plate can slide up and down between the limiting baffle and the installation cabinet body.

Optionally, the gasket adsorption turnover mechanism further comprises a rotary cylinder, a second turnover shaft, a turnover block and a second sucker;

the rotating cylinder is arranged at one end of the lifting plate;

the second turnover shaft is arranged along the length direction of the mounting cabinet body, and a plurality of turnover blocks are arranged on the second turnover shaft at equal intervals;

and the plurality of turning blocks are provided with second suckers.

Optionally, the mounting top plate is provided with a plurality of through holes;

a plurality of limiting rods are uniformly arranged outside the through holes;

the gasket is arranged on the through hole and positioned in the centers of the limiting rods;

the through hole and the second sucker are coaxially arranged.

The utility model has the advantages that:

1) The utility model provides a bottle cap gasket assembling device, which comprises an installation cabinet body, a first conveyor belt, a bottle cap adsorption turnover mechanism, a second conveyor belt and a gasket adsorption turnover mechanism; a first conveyor belt is arranged in the length direction of the mounting cabinet body, and bottle caps are placed on the first conveyor belt; a bottle cap adsorption turnover mechanism and a gasket adsorption turnover mechanism are respectively arranged at two ends of the length direction of the top surface of the mounting cabinet body, the bottle cap adsorption turnover mechanism and the gasket adsorption turnover mechanism are respectively positioned at two ends of the first conveyor belt, and a gasket is prevented from being arranged at the top of the gasket adsorption turnover mechanism; the second conveyor belt is installed on the installation cabinet body along the width direction and is positioned below the gasket adsorption turnover mechanism; the bottle cap adsorption turnover mechanism is used for transferring the bottle caps on the first conveying belt to the second conveying belt, and the gasket adsorption turnover mechanism is used for transferring the gaskets on the top to the second conveying belt and assembling the gaskets with the corresponding bottle caps. The bottle caps are conveyed to a specified position through a first conveying belt, then the bottle cap adsorption turnover mechanism is turned over and grabs the bottle caps at the specified position and turns over to one end where a second conveying belt is located, and meanwhile, the bottle caps are turned over, and the cap openings of the bottle caps face upwards and are placed on the second conveying belt; meanwhile, the gasket is released into the bottle cap at the position corresponding to the lower second conveyor belt through the gasket adsorption turnover mechanism, and the assembly is completed, so that the automatic assembly of the bottle cap and the gasket is realized, and the time and the labor are saved.

2) The utility model discloses a bottle lid flap is placed down on first conveyer belt for the bottle lid surface is upwards, and the surface of bottle lid can effectively be avoided by the scratch before putting into the gasket to the flap edge contact of first conveyer belt and bottle lid, transmits the assembling-process in whole, has reduced the contact time of bottle lid surface and conveyer belt, thereby the effectual surface of protecting the bottle lid.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of another perspective of the present invention.

Fig. 3 is a front view schematically illustrating the present invention.

Fig. 4 is a schematic top view of the present invention.

Fig. 5 is a schematic structural view of the bottle cap adsorbing and turning mechanism of the present invention.

Fig. 6 is a schematic structural view of the middle pad adsorbing and turning mechanism of the present invention.

Fig. 7 is a schematic structural view of another view angle of the gasket-adsorbing and overturning mechanism of the present invention.

In the figure: 1-mounting cabinet body, 2-first conveyor belt, 3-bottle cap adsorption turnover mechanism, 31-first telescopic cylinder, 32-rack, 33-first turnover shaft, 34-connecting rod, 35-first suction cup, 36-rodless cylinder, 37-mounting plate, 38-push plate, 4-second conveyor belt, 41-driving motor, 42-conveyor belt, 43-push rod, 44-color sensor, 5-gasket adsorption turnover mechanism, 51-mounting top plate, 511-second telescopic cylinder, 512-through hole, 513-limiting rod, 52-lifting plate, 54-limiting column, 55-guide column, 56-rotating cylinder, 57-second turnover shaft, 58-turnover block, 59-second suction cup and 6-bottle cap.

Detailed Description

The first embodiment is as follows:

in this embodiment, as shown in fig. 1 to 4, the bottle cap gasket assembling apparatus includes an installation cabinet 1, a first conveyor belt 2, a bottle cap adsorbing and overturning mechanism 3, a second conveyor belt 4, and a gasket adsorbing and overturning mechanism 5; a first conveyor belt 2 is arranged in the length direction of the mounting cabinet body 1, and a bottle cap 6 is placed on the first conveyor belt 2; a bottle cap adsorption turnover mechanism 3 and a gasket adsorption turnover mechanism 5 are respectively arranged at two ends of the length direction of the top surface of the mounting cabinet body 1, the bottle cap adsorption turnover mechanism 3 and the gasket adsorption turnover mechanism 5 are respectively positioned at two ends of the first conveyor belt 2, and a gasket is prevented from being arranged at the top of the gasket adsorption turnover mechanism 5; the second conveyor belt 4 is installed on the installation cabinet body 1 along the width direction and is positioned below the gasket adsorption turnover mechanism 5; the bottle cap adsorption and turnover mechanism 3 is used for transferring the bottle caps 6 on the first conveyor belt 2 to the second conveyor belt 4, and the gasket adsorption and turnover mechanism 5 is used for transferring the gaskets on the top to the second conveyor belt 4 and assembling the gaskets with the corresponding bottle caps 6. The bottle caps 6 are conveyed to a specified position through the first conveyor belt 2, then the bottle cap adsorption turnover mechanism 3 is turned over, grabs the bottle caps 6 at the specified position and turns over to one end of the second conveyor belt 4, the bottle caps 6 are turned over, and the cap openings face upwards and are placed on the second conveyor belt 4; meanwhile, the gasket is released into the bottle cap 6 at the position corresponding to the lower second conveyor belt 4 by the gasket adsorption and turnover mechanism 5, and the assembly is completed, so that the automatic assembly of the bottle cap 6 and the gasket is realized, and the time and the labor are saved. The utility model discloses a 6 gaikou of bottle lid place down on first conveyer belt 2 for 6 surface of bottle lid is towards last (bottle lid 6 knot is put on first conveyer belt 2 promptly), and the contacting at the gaikou edge of first conveyer belt 2 and bottle lid 6 can effectively avoid the surface of bottle lid 6 to be scratched before putting into the gasket, in whole transmission to the equipment process, has reduced the contact time of 6 surfaces of bottle lid and conveyer belt, thereby the effectual surface of protecting bottle lid 6.

Example two:

on the basis of the first embodiment, the embodiment provides an alternative scheme for the specific structure of the bottle cap adsorption and turnover mechanism.

In this embodiment, as shown in fig. 1 to 5, the bottle cap adsorbing and turning mechanism 3 includes a turning mechanism, and the turning mechanism includes a first telescopic cylinder 31, a rack 32, a first turning shaft 33, a connecting rod 34, and a suction cup 35; the first telescopic cylinder 31 is installed on the installation cabinet 1, and a piston rod of the telescopic cylinder 31 is connected with the rack 32 and drives the rack 32 to move along the length direction of the installation cabinet 1; the first turnover shaft 33 is arranged along the width direction of the installation cabinet body 1, one end of the first turnover shaft 33 is provided with a gear, and the gear is meshed with the rack 32; a plurality of connecting rods 34 are arranged on the first turning shaft 33 at equal intervals, and a first suction disc 35 is arranged at one end of each connecting rod 34 far away from the first turning shaft 33. The existing turnover mechanism is usually realized by using a motor, the motor can have an accumulated error of an angle after being used for a long time, the accumulated error can lead to the change of the final rotation angle, and then the first turnover shaft can not be stopped at an accurate angle, so that the error of the whole system can occur. And through the gear connection of rack 32 and first trip shaft 31 one end, utilize the meshing between gear and rack 32 tooth and the tooth to convert the linear reciprocating motion of first telescopic cylinder 31 into rotary motion, and then can reduce the angle and add up the influence of error to entire system.

In this embodiment, first telescopic cylinder 31 installs the top surface at the installation cabinet body 1, its telescopic link is located the top of the installation cabinet body 1 top surface, rack 32 places at the installation cabinet body 1 top surface, still can be connected with first telescopic cylinder 31 piston rod when making rack 32 place the installation cabinet body 1 top surface, rack 32 bottom should be provided with the adaptation piece (not shown in the figure), specifically, the adaptation piece is vertical square piece, the top and the first telescopic cylinder 31 piston rod of adaptation piece are connected, the bottom and the one end of rack 32 of adaptation piece are connected.

In this embodiment, both ends of the first flipping shaft 33 are mounted in bearing seats, and one end of the first flipping shaft 33 passes through the bearing seat of the end and is mounted with a gear connected with the rack 32. A plurality of connecting rods 34 are each located between the bearing blocks.

In this embodiment, as shown in fig. 4 and 5, the bottle cap adsorbing and overturning mechanism 3 further comprises a translation mechanism, and the translation mechanism comprises a rodless cylinder 36, a mounting plate 37 and a push plate 38; the two ends of the mounting cabinet body 1 in the width direction are provided with rodless cylinders 36, the two ends of the mounting plate 37 are respectively connected with the sliding blocks of the two rodless cylinders 36, a plurality of push plates 38 are arranged on the mounting plate 37 at equal intervals, the connecting rods 34 are respectively positioned in the intervals of the push plates 38, and the intervals between the adjacent push plates 38 are smaller than the diameter of the bottle cap 6.

In this embodiment, two rodless cylinders 36 are provided between the first turning shaft 33 and the second conveyor belt 4.

In the initial state, the first suction cup 35 is positioned at one end of the second conveyor belt 4, and the slide block of the rodless cylinder 36 is positioned at one end close to the first turnover shaft 33; after the bottle cap 6 is conveyed to a designated position by the first conveyor belt 2, the first telescopic cylinder 31 acts to push the rack 32, so that the first turnover shaft 33 is turned to the end where the first conveyor belt 2 is located, the first sucker 35 is turned over to the bottle cap 6, and the bottle cap is sucked up by the first sucker 35 through vacuum negative pressure; then the first telescopic cylinder 31 contracts to pull the rack 32 to move towards the first conveyor belt 2, so that the first turnover shaft 33 is turned towards one end of the second conveyor belt 4, after the first telescopic cylinder is turned over again, the connecting rod 34 is located at the center of the two push plates 38, the first suction disc 35 is located at one end, far away from the first turnover shaft 33, of the push plates 38 and located between the two push plates 38, after the first suction disc 35 is in place, the bottle cap 6 is loosened by the first suction disc 35, then the sliding block of the rodless cylinder 36 slides towards one end, far away from the first turnover shaft 33, so that the bottle cap 6 is pushed onto the second conveyor belt 4 by the push plates 38, the bottle cap 6 is located under the second suction disc 59 at the corresponding position of the gasket adsorption turnover mechanism 5, and the process is repeated.

In this embodiment, the rodless cylinder 36 may alternatively be a linear guide.

In this embodiment, the end of the push plate 38 remote from the first flipping axis 33 is provided with a wedge-shaped guide surface.

In this embodiment, the state of the bottle cap 6 on the first conveyor belt 2 is that the cap opening faces downwards, and when the bottle cap is turned over and transferred onto the second conveyor belt 4 by the bottle cap adsorbing and turning mechanism 3, the opening of the bottle cap 6 faces upwards.

Example three:

the present embodiment provides an alternative to the specific structure of the second conveyor belt 4 on the basis of any of the above-described embodiments.

In the embodiment, as shown in fig. 1 to 4, the second conveyor belt 4 includes a driving motor 41, a conveyor belt 42, a push rod 43 and a color sensor 44, and a power output shaft of the driving motor 41 is in transmission connection with the conveyor belt 42; the push rod 43 is arranged at the output end of the transmission belt 42; a color sensor 44 is mounted directly above the output end of the belt 42.

In the present embodiment, specifically, the driving motor 41 is connected to a conveying roller (not shown), and the conveying roller is sleeved with a conveying belt 42.

In this embodiment, in particular, the pushing plate 38 pushes the bottle cap 6 into the input end of the belt 42, and the end of the belt 42 away from the pushing plate 38 is the output end.

In the present embodiment, as shown in fig. 4, a drive motor 41 and a push rod 43 are provided at the output end of the belt 42.

In this embodiment, the two sides of gasket are silver tin foil face and white paper face respectively, for the inside material infiltration of house bottle advances the gasket, and the tin foil face should be towards the bottleneck, in order to prevent that the inside gasket of putting the contrary appears of bottle lid 6 to lead to bottle lid 6 to assemble nonconforming, the output of drive belt 42 is provided with color sensor 44 and push rod 43.

In this embodiment, the color sensor 44 is used for detecting whether the gasket in the bottle cap 6 output by the transmission belt 42 is placed reversely, and after the color sensor 44 recognizes a preset color, the push rod 43 is actuated, so that the unqualified bottle cap 6 passing through the position is kicked out of the transmission belt 42.

In the present embodiment, the push rod 43 is an electric push rod or a telescopic cylinder.

Example four:

the embodiment provides an alternative for the specific structure of the pad adsorption turnover mechanism on the basis of any of the above embodiments.

In the present embodiment, as shown in fig. 1 to 4 and fig. 6 to 7, the pad-adsorbing and overturning mechanism 5 includes a mounting top plate 51, a lifting plate 52, a supporting shaft 53, a limiting column 54 and a guide column 55; supporting shafts 53 are arranged on two sides and two ends of the second conveyor belt 4, and a mounting top plate 51 is mounted at the tops of the supporting shafts 53; a second telescopic cylinder 511 is arranged at the top of the mounting top plate 51, and a piston rod of the second telescopic cylinder 511 penetrates through the mounting top plate 51 to be connected with the lifting plate 52; four top corners of the lifting plate 52 are slidably mounted on the supporting shafts 53; two ends of the guide column 55 are respectively fixedly connected with the mounting cabinet body 1 and the mounting top plate 51 and penetrate through the lifting plate 52; the limiting column 54 is installed on the installation cabinet 1, and the top end of the limiting column is provided with a limiting baffle, and the lifting plate 52 can only slide up and down between the limiting baffle and the installation cabinet 1.

In the present embodiment, specifically, linear bearings are mounted at four top corners of the lifting plate 52. The lifting plate 52 is driven by the second telescopic cylinder 511 to lift up and down.

In the present embodiment, as shown in fig. 1 to 4, in order to prevent interference with the rotation of the connecting rod 34, notches are formed on both the lifting plate 52 and the mounting top plate 51 on the side close to the pushing plate 38.

In this embodiment, as shown in fig. 6 and 7, the gasket sucking and overturning mechanism 5 further includes a rotating cylinder 56, a second overturning shaft 57, an overturning block 58 and a second suction cup 59; a rotary cylinder 56 is installed at one end of the elevating plate 52; the second turning shaft 57 is arranged along the length direction of the mounting cabinet body 1, and a plurality of turning blocks 58 are arranged on the second turning shaft 57 at equal intervals; the turning blocks 58 are all provided with second suction cups 59.

In this embodiment, the rotary cylinder 56 is used to rotate the second flipping shaft 57, so as to flip the flipping block 58 and the second suction cup 59.

In this embodiment, as shown in fig. 6 and 7, the mounting top plate 51 is provided with a plurality of through holes 512; a plurality of limiting rods 513 are uniformly arranged outside the plurality of through holes 512; the gasket is arranged on the through hole 512 and is positioned in the center of the limiting rods 513; the through hole 512 is arranged coaxially with the second suction cup 59. The diameter of the spacer is slightly larger than the diameter of the through hole 512.

In the initial state, the turning block 58 is positioned below the second turning shaft 57, the first sucker 59 is positioned above the transmission belt 42, and the distance between the first sucker and the transmission belt 42 is greater than the height of the bottle cap 6; when the bottle caps 6 on the first conveyor belt 2 are conveyed in place and the first turnover shaft 33 begins to turn over, the rotary cylinder 56 synchronously rotates to drive the second turnover block 58 and the second suction cup 59 to turn over, and the second suction cup 59 and the through hole 512 are coaxial, and then the second telescopic cylinder 511 contracts and drives the lifting plate 52 to ascend, so that the second suction cup 59 is close to the through hole 512 and the second suction cup 59 can suck the gasket; after the pushing plate 38 pushes the bottle caps 6 onto the transmission belt 42, the pushing plate 38 leaves from the upper side of the transmission belt 42 and retracts to the initial position, then the piston rod of the second telescopic cylinder 511 extends to drive the lifting plate 52 to descend, so that the second suction cup 59 pulls the gasket downwards, slight deformation passes through the through hole 512, after the piston rod descends to the preset position, the second telescopic cylinder 511 stops acting, the rotating cylinder 56 acts to drive the second suction cup 59 to overturn, and the second suction cup 59 and the bottle caps 56 on the second transmission belt 42 are coaxial; then the second telescopic cylinder 511 continues to operate and presses the gasket into the bottle cap 6, then the second suction cup 59 releases the gasket, and the first telescopic cylinder 511 rises to the initial position. In this embodiment, the diameter of the second suction cup 59 is smaller than the through hole 512, and the cycle is repeated.

In this embodiment, the first suction cup 35 and the second suction cup 59 are vacuum suction cups, and air and circuit lines are omitted from the drawing.

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Moreover, various embodiments or examples and features of various embodiments or examples described in this specification can be combined and combined by one skilled in the art without being mutually inconsistent.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (8)

1. The utility model provides a bottle lid gasket assembly device which characterized in that: the device comprises an installation cabinet body (1), a first conveyor belt (2), a bottle cap adsorption turnover mechanism (3), a second conveyor belt (4) and a gasket adsorption turnover mechanism (5);

a first conveyor belt (2) is arranged in the length direction of the mounting cabinet body (1), a bottle cap (6) is placed on the first conveyor belt (2), and a cover opening of the bottle cap (6) is placed on the first conveyor belt (2) downwards;

a bottle cap adsorption turnover mechanism (3) and a gasket adsorption turnover mechanism (5) are respectively arranged at two ends of the length direction of the top surface of the mounting cabinet body (1), the bottle cap adsorption turnover mechanism (3) and the gasket adsorption turnover mechanism (5) are respectively positioned at two ends of the first conveyor belt (2), and the gasket is prevented from being arranged at the top of the gasket adsorption turnover mechanism (5);

the second conveyor belt (4) is installed on the installation cabinet body (1) along the width direction and is positioned below the gasket adsorption turnover mechanism (5);

the bottle cap adsorption turnover mechanism (3) is used for transferring bottle caps (6) on the first conveyor belt (2) to the second conveyor belt (4), and the gasket adsorption turnover mechanism (5) is used for transferring a gasket on the top to the second conveyor belt (4) and assembling the gasket with the corresponding bottle caps (6).

2. The bottle cap gasket assembly device according to claim 1, wherein the bottle cap sucking and overturning mechanism (3) comprises an overturning mechanism, and the overturning mechanism comprises a first telescopic cylinder (31), a rack (32), a first overturning shaft (33), a connecting rod (34) and a suction cup (35);

the first telescopic cylinder (31) is installed on the installation cabinet body (1), and a piston rod of the telescopic cylinder (31) is connected with the rack (32) and drives the rack (32) to move along the length direction of the installation cabinet body (1);

the first overturning shaft (33) is arranged along the width direction of the mounting cabinet body (1), one end of the first overturning shaft (33) is provided with a gear, and the gear is meshed with the rack (32);

a plurality of connecting rods (34) are arranged on the first overturning shaft (33) at equal intervals, and a first sucking disc (35) is arranged at one end, far away from the first overturning shaft (33), of each connecting rod (34).

3. The bottle cap gasket assembly device according to claim 2, wherein the bottle cap sucking and overturning mechanism (3) further comprises a translation mechanism, and the translation mechanism comprises a rodless cylinder (36), a mounting plate (37) and a push plate (38);

the installation cabinet body (1) width direction's both ends all are provided with rodless cylinder (36), the both ends of mounting panel (37) are connected with the slider of two rodless cylinders (36) respectively, equidistant a plurality of push pedal (38) that are provided with on mounting panel (37), it is a plurality of connecting rod (34) are located the interval of push pedal (38) respectively and the interval between adjacent push pedal (38) is less than the diameter of bottle lid (6).

4. The bottle cap gasket assembling device according to claim 3, wherein the second conveyor belt (4) comprises a driving motor (41), a conveyor belt (42), a push rod (43) and a color sensor (44), and a power output shaft of the driving motor (41) is in transmission connection with the conveyor belt (42);

the push rod (43) is arranged at the output end of the transmission belt (42);

the color sensor (44) is arranged right above the output end of the transmission belt (42).

5. A bottle cap gasket assembly device according to claim 4, characterized in that the push rod (43) is an electric push rod or a telescopic cylinder.

6. The bottle cap gasket assembling device according to claim 5, wherein the gasket sucking and overturning mechanism (5) comprises a mounting top plate (51), a lifting plate (52), a supporting shaft (53), a limiting column (54) and a guiding column (55);

supporting shafts (53) are arranged on two sides and two ends of the second conveying belt (4), and mounting top plates (51) are mounted at the tops of the supporting shafts (53);

a second telescopic cylinder (511) is installed at the top of the installation top plate (51), and a piston rod of the second telescopic cylinder (511) penetrates through the installation top plate (51) to be connected with the lifting plate (52);

four top corners of the lifting plate (52) are slidably arranged on the supporting shaft (53);

two ends of the guide post (55) are respectively fixedly connected with the mounting cabinet body (1) and the mounting top plate (51) and penetrate through the lifting plate (52);

the limiting column (54) is installed on the installation cabinet body (1), a limiting baffle is arranged at the top end of the limiting column, and the lifting plate (52) can slide up and down between the limiting baffle and the installation cabinet body (1).

7. The bottle cap gasket assembling device according to claim 6, wherein the gasket sucking and overturning mechanism (5) further comprises a rotary cylinder (56), a second overturning shaft (57), an overturning block (58) and a second sucking disc (59);

the rotary cylinder (56) is arranged at one end of the lifting plate (52);

the second turnover shaft (57) is arranged along the length direction of the mounting cabinet body (1), and a plurality of turnover blocks (58) are arranged on the second turnover shaft (57) at equal intervals;

and a plurality of turning blocks (58) are provided with second suckers (59).

8. The apparatus as claimed in claim 7, wherein the top mounting plate (51) has a plurality of through holes (512);

a plurality of limiting rods (513) are uniformly arranged at the outer sides of the plurality of through holes (512);

the gasket is placed on the through hole (512) and is positioned in the center of the limiting rods (513);

the through hole (512) and the second sucker (59) are coaxially arranged.

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